Esther M.E. van Straten PhD , Vincent W. Bloks , Theo H. van Dijk PhD , Julius F.W. Baller , Nicolette C.A. Huijkman , Irma Kuipers PhD , Henkjan J. Verkade MD, PhD , Torsten Plösch PhD
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引用次数: 18
Abstract
Background
Nutritional conditions during fetal life influence the risk of the development of metabolic syndrome and cardiovascular diseases in adult life (metabolic programming). Impaired glucose tolerance and dysregulated fatty acid metabolism are hallmarks of metabolic syndrome.
Objective
We aimed to establish a mouse model of metabolic programming focusing on the sex-specific effects of a maternal low-protein diet during gestation on glucose and lipid metabolism in the adult offspring.
Methods
Pregnant C57BL/6 mice received a control or a low-protein diet (18% vs 9% casein) throughout gestation. Male and female offspring received a low-fat or a high-fat diet from 6 to 22 weeks of age.
Results
Maternal low-protein diet during gestation led to deteriorated insulin sensitivity on high-fat feeding in female offspring, as determined by biochemical and microarray analyses. Female offspring of control diet–fed dams were relatively resistant to high-fat diet–induced metabolic dysregulation. In contrast, maternal low-protein diet did not specifically affect the metabolic parameters addressed in male offspring. In males, the high-fat diet led to insulin insensitivity regardless of the diet of the dam.
Conclusions
Our findings show that fetal malnutrition has a limited impact on male mouse offspring, yet it does influence the metabolic response to a high-fat diet in females. These findings may have implications for future early diagnostics in metabolic syndrome and for the development of sex-specific treatment regimens.
胎儿时期的营养状况会影响成年后代谢综合征和心血管疾病的发生风险(代谢规划)。糖耐量受损和脂肪酸代谢失调是代谢综合征的标志。目的建立小鼠代谢编程模型,研究母体妊娠期低蛋白饮食对成年后代糖脂代谢的性别特异性影响。方法妊娠期C57BL/6小鼠分别饲喂对照组和低蛋白饲粮(酪蛋白18% vs 9%)。从6周龄到22周龄,雄性和雌性后代分别接受低脂或高脂饮食。结果通过生化和芯片分析发现,妊娠期母体低蛋白饮食导致雌性后代对高脂肪喂养的胰岛素敏感性下降。对照饲料喂养的雌性后代相对抵抗高脂肪饮食引起的代谢失调。相比之下,母体低蛋白饮食并没有特别影响雄性后代的代谢参数。在雄性中,高脂肪饮食导致胰岛素不敏感,而与雌性的饮食无关。结论胎儿营养不良对雄性小鼠后代的影响有限,但会影响雌性小鼠对高脂肪饮食的代谢反应。这些发现可能对未来代谢综合征的早期诊断和性别特异性治疗方案的发展具有启示意义。
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